US20080169171A1 - Sorter and roller-conveying system incorporating the sorter - Google Patents
Sorter and roller-conveying system incorporating the sorter Download PDFInfo
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- US20080169171A1 US20080169171A1 US12/008,932 US893208A US2008169171A1 US 20080169171 A1 US20080169171 A1 US 20080169171A1 US 893208 A US893208 A US 893208A US 2008169171 A1 US2008169171 A1 US 2008169171A1
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- Prior art keywords
- sorter
- passage
- roller
- motorized roller
- motorized
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G13/00—Roller-ways
- B65G13/08—Roller-ways of curved form; with branch-offs
- B65G13/10—Switching arrangements
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G47/00—Article or material-handling devices associated with conveyors; Methods employing such devices
- B65G47/52—Devices for transferring articles or materials between conveyors i.e. discharging or feeding devices
- B65G47/53—Devices for transferring articles or materials between conveyors i.e. discharging or feeding devices between conveyors which cross one another
- B65G47/54—Devices for transferring articles or materials between conveyors i.e. discharging or feeding devices between conveyors which cross one another at least one of which is a roller-way
Definitions
- the present invention relates generally to a roller-conveying system, and more particularly, to a roller-conveying system provided with a sorter which sorts the conveying articles in desired directions.
- Japanese Patent Laid-open Specification No. 2006-44818 discloses a typical example of conventional conveying system. This system uses a lifter which lifts the conveying articles to transfer them in desired directions.
- the lifting system is disadvantageous in lifting each article.
- the lifting consumes time, thereby decreasing the working efficiency.
- the lifting system lacks positional flexibility.
- the lifting system requires a large space on and around the main conveyor. As a result, the conveying system becomes large as a whole.
- the present invention is directed to a reduced size of the conveying system by providing a sorter capable of sorting on the same level as the main conveyor, thereby shifting the articles horizontally in desired directions.
- Rotate (rotation)” and “revolve (revolution)” will be differently used for convenience only and are not limiting.
- “Rotate” means that a roller turns on its own axis
- “revolve” means that a roller turns in a horizontal plane about a vertical axis passing through the body of the roller.
- a roller rotates when it conveys articles, and it revolves when it changes its position in relation to a direction in which the articles are to be conveyed. This is also for explanation's convenience only.
- a first form of roller-conveying system for achieving the above-mentioned object includes a sorter which has a plurality of cells arranged on substantially the same level as the conveying surfaces of the passages; and at least some of the cells including a motorized roller rotatably carried in a shell, and a shifter or directional changer (hereinafter “shifter”) of the motorized roller; wherein the shifter includes a revolving shaft vertical to the conveying surface, the revolving shaft connected to the motorized roller, so as to revolve the motorized roller to agree to a desired conveying passage.
- shifter includes a revolving shaft vertical to the conveying surface, the revolving shaft connected to the motorized roller, so as to revolve the motorized roller to agree to a desired conveying passage.
- the articles are conveyed in desired directions in a plane with no ascent or descent, thereby increasing the conveying efficiency.
- the amount of revolution of the motorized roller can be readily adjusted, thereby easing the change of the conveying directions of articles.
- the amount of revolutions of the motorized roller includes the amount of angles at which the motorized roller horizontally revolves about an axis vertical to the conveying surface and the amount of angular displacement over which the motorized roller revolves.
- the motorized roller is externally protected by the shell, thereby securing the compact structure as a whole.
- the shifter of the sorter includes an auxiliary motor for causing the motorized roller to revolve about the vertical shaft; and means for adjusting the number of revolution of the motorized roller in response to pulses generated from the operation of the auxiliary motor.
- the motorized rollers can be exactly adjusted to the desired direction in which the articles are conveyed.
- the sorter of the invention is provided with cells in which the motorized rollers are independently operated, thereby enabling the individual motorized rollers to maneuver in relation to the conveying direction of articles.
- the sorter includes a plurality of cells which are able to revolve about their own axis independently of the others.
- the motorized rollers can revolve independently of others so as to take an appropriate position, thereby shifting the articles in various desired directions.
- sorter 50 receives a reaction from the articles being carried on the cells.
- the sorter of the invention is made robust against such detrimental reaction from the conveyer, thereby maintaining the motorized rollers in the stay state against a reaction in the form of rotatable urge.
- the sorter includes means for stopping the motorized roller from revolving about the vertical axis.
- the motorized rollers are prevented from revolving unexpectedly by the conveying articles, thereby ensuring that the articles are exactly conveyed in a desired direction.
- the sorter is designed to be capable of maneuvering the motorized rollers in relation to directions in which the articles are to be conveyed by allowing the motorized rollers to revolve about a vertical axis passing through the body thereof, wherein they can revolve clockwise or anticlockwise, depending upon the situation.
- a fifth form of roller-conveying system means for stopping the motorized roller from revolving in either direction.
- the motorized rollers are located exactly in correspondence to a direction in which the articles are to be conveyed.
- a sixth form of roller-conveying system a selected number of motorized rollers revolve clockwise and anticlockwise as required, and the stop means stops the selected number of motorized roller from revolving either clockwise or anticlockwise, wherein the amount of revolution in one direction corresponds to that of revolution in the other direction.
- the articles can be conveyed exactly in a desired direction, thereby shortening the time required for conveying articles.
- a seventh form of roller-conveying system the sorter is provided with means for associating the revolution of the motorized roller in one cell with that in other cell,
- the positional change of one motorized roller causes other motorized roller or rollers to change their positions simultaneously, thereby resulting in efficient article conveyance.
- An eighth form of roller-conveying system the sorter is located at the junction of a first passage and a second passage.
- the articles on one passage can be readily shifted to another passage in the same plane; that is, with no ascent or descent.
- the present invention provides a roller-conveying system which can swiftly and securely sort the articles from one passage to another passage as desired.
- FIG. 1 is a plan view showing a roller-conveying system according to the present invention
- FIG. 2 is a cross-sectional view showing the internal structure of a motorized roller
- FIG. 3 is a perspective view showing a cell to be arranged in the sorter
- FIG. 4A is a plan view showing the sorter shown in FIG. 1 ;
- FIG. 4B is a cross-sectional view taken along A-A line in FIG. 4A ;
- FIG. 4C is a cross-sectional view taken along B-B line in FIG. 4A ;
- FIG. 5A is a plan view showing the cell of FIG. 3 ;
- FIG. 5B is a cross-sectional view taken along A-A line in FIG. 5A ;
- FIG. 5C is a cross-sectional view taken along B-B line in FIG. 5A ;
- FIG. 5D is a cross-sectional view taken along C-C line in FIG. 5A ;
- FIG. 6 is a perspective exploded view of the cell of FIG. 3 ;
- FIGS. 7A and 7B are plan views schematically illustrating the behavior of the roller-conveying system of the invention when it is in “normal straight conveyance”;
- FIGS. 8A and 8C are plan views schematically illustrating the behavior of the roller-conveying system of the invention when it is in “first sorted conveyance”;
- FIGS. 8B and 8D are plan views schematically illustrating the relationship between the passage of conveyance and the position of a motorized roller in the cell;
- FIGS. 9A to 9C are plan views schematically illustrating the behavior of the roller-conveying system of the invention when it is in “second sorted conveyance”, wherein Fig. C is an enlarged view especially illustrating an anticipated movement of the article from one course to another
- FIG. 1 shows a roller conveyer 1 having a main passage 2 and a sub-passage 3 , and a sorter 50 located at the junction of the main passage 2 and the sub-passage 3 .
- the main passage 2 and the sub-passages 3 are constructed of two kinds of rollers; that is, free-rollers 8 and motorized rollers 10 crosswise arranged in frames 6 .
- the main passage 2 conveys articles, such as cartons, straightforward.
- the main passage 2 has two branch passages 2 a at the left (upstream) and 2 b at the right (downstream) of the sorter 50 .
- the sub-passages 3 extend in different directions from the sorter 50 .
- the sorter 50 is designed to take over the articles from the main passage 2 , and sort them in a desired direction.
- the sub-passage 3 a extends at right angle to the sorter 50
- the sub-passage 3 b is arranged at a declined angle to the sorter 50 .
- each passage 2 a , 2 b , 3 a and 3 b is provided with the free-rollers 8 rotatable on the respective pins (unnumbered) supported in a known manner on the frames 6 .
- the free-rollers 8 and the motorized rollers 10 are crosswise arranged on the respective passages.
- the motorized roller 10 and the free rollers 8 take the same appearance but the motorized roller 10 is provided with a motor 20 and a reduction gear 21 . More specifically, as shown in FIG. 2 the motorized roller 10 includes a cylindrical shell 11 of metal, stoppers 12 a and 12 b , which close the opposite ends of the shell 11 , and pins 13 and 14 which are rotatably carried in the stoppers 12 a and 12 b through bearings 16 and 17 , respectively.
- the pin 14 has a bore 18 through which a cable 23 is passed, so as to supply electric power and various control signals to the motor 20 .
- the cable 23 extends beyond the shell 11 .
- the motorized roller 10 houses a driver unit 25 which is constituted with the motor 20 and the speed reduction gear 21 .
- the motor 20 is a brushless motor provided with an electromagnetic stator, a rotor having magnetic poles, and a position detector.
- the central spindle 26 of the motor 20 is connected to the speed reduction gear 21 through a bearing 27 .
- the speed reduction gear 21 includes a planet gear train whereby the rotating speed of the motor 20 is reduced through the spindle 26 at a desired reduction ratio.
- the output pin 28 of the reduction gear 21 is connected to a connecting member 30 secured to the shell 11 through an outer gear 29 .
- the reduced speed of the motor 20 is transmitted to the shell 11 through the output pin 28 and the connecting member 30 , thereby causing the roller 10 (i.e. the shell 11 ) to rotate.
- Each of the main passage 2 and the sub-passage 3 is composed essentially of at least one motorized roller 10 and a plurality of rollers 8 . Adjacent pairs of rollers 10 and 8 , and of rollers 8 and 8 are mutually coupled by belts 32 . Owing to this arrangement, once the motorized rollers 10 are driven, all the rollers 10 and 8 are caused to rotate at the same time through the belts 32 . In this way the articles placed on the passages 2 are conveyed in accordance with the rotation of the rollers 10 and 8 , and when having reached the sorter 50 , they are sorted in a desired direction by the sorter 50 , which will be described in detail below:
- the sorter 50 takes a square shape when viewed from top ( FIG. 1 ), and provided with a plurality of cells 60 ; the illustrated example has 25 (5 ⁇ 5) pieces
- each of the cells 60 includes a cell driver unit 65 which houses a roller section 70 covered by a cover 85 , and a motorized roller 80 having a shell 11 carried on a pair of first supporters 83 by the pins 13 and 14 , wherein the roller section 70 is supported by a disc-shaped intermediate base 81 made of a plate 82 having a rectangular opening 87 in the center.
- the motorized roller 80 has the same structure as the motorized roller 10 but is shorter so as to be housed within the area of the intermediate base 81 .
- the cover 85 having a pair of suspenders 86 is supported by a pair of second supporters 84 upright on the intermediate base 81 .
- the cell driver unit 65 is additionally provided with an internal gear 71 , an external gear 73 , and an auxiliary electric motor 75 .
- the pair of first supporters 83 are upright and diametrically situated at points near the peripheral edge of the intermediate base 80 , each holding the pin 13 and 14 for supporting the motorized roller 80 .
- the second supporters 84 are provided at right angular intervals to the first supporters 83 along the periphery of the intermediate base 81 .
- the second supporters 84 support a covering unit 72 from underneath.
- the opening 81 a of the intermediate base 81 is co-axial with a hollow cylinder 88 extending below the intermediate base 81 .
- the hollow cylinder 88 houses a cable 23 connected to the motorized roller 80 and is rotatably fitted in a bearing 90 .
- the internal gear 71 is secured to the bottom of the intermediate base 81 , and constitutes a shifter 78 together with the external gear 73 and the auxiliary motor 75 for driving the external gear 73 .
- the shifter 73 changes the direction of the roller 80 .
- the outside diameter of the internal gear 71 is substantially the same as that of the intermediate base 81 .
- the internal gear 71 rests on rollers 91 provided along the periphery of a bed 61 , and revolves thereon horizontally in relation to the bed 61 .
- the covering unit 72 includes the cover 85 and the suspenders 86 .
- the cover 85 has substantially the same outside diameter as that of the intermediate base 81 and the internal gear 71 .
- the opening 87 is so sized that the semi-circular top surface of the roller 80 protrudes through it. When all the rollers of the cells 60 extrude through the respective openings 87 , the extruding surfaces form the imaginary sliding surface X of the sorter 50 .
- the suspenders 86 project downward from the cover 85 , and stay side by side with the outside of the first supporters 83 , thereby unifying the cover 85 and the intermediate base 81 into the covering unit 72 , with the roller 80 protruding its semi-circular top surface through the opening 87 .
- the external gear 73 is connected to the revolving axis of the auxiliary motor 75 , wherein the revolving axis projects on the top surface of the bed 61 .
- the external gear 73 is located within and in gear with the internal gear 71 .
- the auxiliary motor 75 is driven, the external gear 73 revolves, and the roller section 70 revolves in association with the external gear 73 . In this way the cell 60 revolves round the axis V clockwise or anticlockwise, depending upon the situation.
- the top surface 61 a of the bed 61 has a bore 61 b at the center.
- the rollers 91 are situated at 45° angular displacements along the periphery of the bed 61 .
- the bore 61 b is surrounded with a bearing 90 aligned with the bore 61 b .
- the cylinder 88 is inserted in and through the bore 61 b ; that is, through the bearing 90 , thereby allowing the cylinder 88 to revolve about the axis V.
- the rollers 91 support the external gear 73 and help them rolling.
- Each of the cells 60 is provided with a controller 95 as shown in FIGS. 4A and 4B .
- the controller 95 will be more particularly described:
- the controller 95 plays an important role by regulating the auxiliary motor 75 of the motorized roller 80 .
- the controller 95 determines the number of revolutions of the roller 80 about the V axis.
- the regulation of the auxiliary motor 75 leads to the regulation of the revolution of the external gear 73 , the internal gear 71 , and the base 81 . In this way the amount of revolutions of each roller 80 is regulated, thereby changing the directions of conveying the articles.
- the controller 95 can prevent the roller 80 from revolution, this situation being referred to as “in the stay state”. More specifically, when the motor 80 is in the stay state, the controller 95 monitors the pulses from the auxiliary motor 75 whereby it detects both the amount of revolutions and the planeting direction of the auxiliary motor 75 . Then the free roller 8 is reversely rotated in correspondence with the detected amount of revolutions. In this way, the controller 95 determines the revolution of the roller 80 either clockwise or anticlockwise. Thus, even if the sorter 50 receives a reaction from the articles being carried on the cell 60 , the roller 80 can be maintained in the stay state against the rotatable urge.
- the conveying system 1 can transfer articles in at least three different modes; one being “normal straight conveyance” where the articles are straightly conveyed from the passage 2 a to the passage 2 b with the front W 1 of each article ahead, another mode being “first sorted conveyance” where each of the articles is sorted onto the passage 3 a (upward in FIG. 1 ) or the passage 3 b (downward in FIG. 1 ) with their front W 1 kept unchanged as shown in FIGS. 7A and 7B , and a further mode being “deviated conveyance” where the article is conveyed from the passage 2 a to the passage 2 b along a deviated course as shown in FIG. 9 wherein the front W 1 kept unchanged.
- This mode will be “second sorted conveyance”.
- at least three conveyance modes are possible: that is, “normal straight conveyance”, “first sorted conveyance” and “second sorted conveyance”. Each of these modes will be more specifically described:
- the sorter 50 get ready for receiving the articles by arranging the shell 11 of the roller 80 in each cell 60 in parallel with the motorized rollers 10 and free rollers 8 as shown in FIG. 1 .
- the controller 95 of each cell 60 drives the auxiliary motor 75 , thereby rotating the external gear 73 secured to the shaft of the auxiliary motor 75 .
- the rotation of the external gear 73 causes the internal gear 71 , the associated roller section 70 and the motorized rollers 80 to revolve about the axis V until the motorized rollers 80 are brought into parallel with the motorized rollers 10 and the free rollers 8 on the main passages 2 and 3 .
- the controllers 95 stop the auxiliary motor 75 .
- the articles on the passage 2 a are conveyed up to a point near the sorter 50 .
- the controllers 95 rotates the motorized rollers 80 in each cell 60 . In this way the articles on the passage 2 a continue to be straightly conveyed onto the passage 2 b.
- each article is rectangular with a front W 1 , and opposite sides W 2 and W 3 , wherein the front W 1 is ahead and the sides W 2 and W 3 are left and right in relation to the advancing direction of the articles.
- FIG. 7A the articles are conveyed from the passage 2 a either to the passage 3 a or to the passage 3 b sideway with the side W 2 of each article ahead.
- FIG. 7B the articles are conveyed onto the passage 3 b with the sides W 3 ahead.
- the motorized rollers 10 are driven to convey the articles along the normal course from upstream to downstream.
- the sorter 50 before taking over the articles from the passage 2 a , causes the rollers 80 of the cells 60 to take appropriate positions so as to sort the articles onto the passage 3 a or 3 b . More specifically, in FIG. 7A when the articles are to be sorted onto the passage 3 a as indicated by the arrow A, the shells 11 (actually, the rollers 80 ) are brought into parallel with the rollers 8 and 10 of the passage 3 a.
- rollers 80 are likewise brought into parallel with the rollers 8 and 10 of the passage 3 b .
- the controllers 95 in the respective cells 60 function to shift the positions of the rollers 80 as described above.
- each article on the passage 2 a is sorted to the passage 3 a as desired, with its left-hand side W 2 ahead.
- they are conveyed on the passage 3 b with their right-hand side W 3 ahead.
- the motorized rollers 10 are driven, and the free rollers 80 follow to rotate, thereby causing the articles to move toward the sorter 50 .
- the sorter 50 is made ready to take over the articles from the passage 2 , and the rollers 80 in the cells 60 are also made ready to mount them by revolving about the axis V and shifting their position as indicated by the arrow A in FIG. 8B . As a result, the articles are conveyed with their heads W 1 maintained ahead.
- FIG. 8C shows that the articles are sorted onto the passage 3 b in the same manner, where the rollers 80 are shifted in the hatched area (P) in FIG. 8C .
- this mode is characteristic in that when the articles are conveyed onto the passage 2 b they are deviated by the sorter 50 from the original course on the passage 2 a as indicated by the arrows A and B in FIGS. 9A and 9B .
- the articles maintain their original positions on the passage 2 a but are deviated sideway and then advance on the passages 2 b without changing their heads ahead.
- the sorter 50 is divided into an upstream (U) area, a middle (M) area and a downstream (D) area wherein the U area includes U 1 and U 2 sections, and the D area includes D 1 and D 2 sections.
- U upstream
- M middle
- D downstream
- the article is shifted from the U 1 area to the D 1 as indicated by the arrow A.
- the motorized rollers 80 of the cells 60 located in the M area cause the articles to change their positions as mentioned above.
- the articles can be conveyed straight from the passage 2 a to the passage 2 b , and from the passage 2 a to the passage 3 a or the passage 3 b as desired.
- the sorter 50 is provided with the plurality of cells 60 horizontally arranged in a plane (whose number is optional; in the illustrated example, 50 pieces).
- the roller section 70 , the motorized roller 80 and the shifter 78 are all incorporated in the single cell 60 .
- the motorized rollers 80 can take their positions in correspondence to the direction in which the articles are conveyed. The positional change takes place in a plane with no ascent or descent, in contrast to the known conveying system using a lifter.
- the positional change of the motorized roller 80 is performed by adjusting the amount of rotation of the auxiliary motor 75 .
- some of the cells 60 are provided with rollers having no driver like the free rollers 8 of the passages 2 and 3 .
- the amounts of rotation of the auxiliary motor 75 and of the motorized roller 80 are counted in terms of the number of pulses generated from the operation of the auxiliary motor 75 .
- the present invention is not limited to this specific structure, but any structure can be used if it can count the amount of rotation of the auxiliary motor 75 and the number of the motorized roller 80 .
- the sorter 50 of the present invention incorporates the motorized rollers 80 as a driver, thereby achieving the reduced size.
- the auxiliary motor 75 performs the key function; that is, the auxiliary motor 75 causes the rollers 80 to revolve clockwise or anticlockwise about the axis V, thereby enabling the motorized rollers 80 to take appropriate positions in relation to the free-rollers 8 and the motorized rollers 10 of the passages 2 and 3 .
- the motorized rollers 80 of some or all the cells 60 can be unilaterally rotatable; that is, in either direction.
- the motorized roller 80 need not revolve at 3600 but can be less than it.
- the controller 95 detects a pulse signal from the auxiliary motor 75 , which is supplied with the amount of electric power so as to reverse the roller 80 in correspondence to the number of revolutions of the motorized roller 80 so far performed.
- a mechanical device such as a brake can be used to stop the motorized roller 80 from revolution.
- the mechanical device will simplify the procedure of control.
- the suggested alternative embodiment has a structure in which all or some of the motorized rollers 80 revolve about the axis V together. More specifically, in FIG. 9 cells 60 situated side by side can be operated together with the use of small component parts such as gears and rollers. This increases the operational efficiency.
- the sorter 50 Since the sorter 50 is located at the junction of the passages 2 and 3 , it can efficiently sort the articles in desired directions.
- the articles are sorted from one passage to another horizontally in a place with no ascent or descent. This is advantageous as compared with the conventional lifting system.
- sorter 50 it is also possible to place the sorter 50 at a desired position such as at an end, in the middle, or any other place of the conveyor.
- the number of the sorter 50 is not limited to a single but a plurality of it can be provided at intervals.
- the motorized rollers 80 continue to rotate but it is possible to modify so that the rollers 80 start to rotate only in response to the articles approaching, thereby saving electricity. While the cells 60 are at rest, the motorized rollers 80 can be prepared for the subsequent conveyance.
- a single sorter 50 is provided crosswise of the passage but a plurality of sorters can be provided crosswise of the passage.
- the motorized rollers can be selectively driven in correspondence to the articles approaching, and the others are at rest, thereby avoiding wasting energy.
- a sorter can be provided at the junction of a plurality of passages, and jointly collect the articles from the plurality of passages, and then convey them together onto a particular passage.
- the outer motorized roller and the inner motorized roller are normally rotated by the same number of rotations and at the same torque, but alternatively, they can be rotated by a different number of rotations and at a different torque.
- a plurality of motorized rollers can be installed in a single cell with the addition of free-rollers or none.
- containers such boxes can be prepared for collecting the articles instead of the passages 3 a and 3 b in FIG. 1 , or otherwise, a collecting site can be provided for a subsequent transportation.
- each cell is provided with the controller 95 but alternatively, some of the cells can share a single controller 95 , and/or means can be provided for being shared by the plurality of motorized rollers to detect information useful for controlling the motorized rollers 80 and auxiliary motors 75 .
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Sorting Of Articles (AREA)
- Branching, Merging, And Special Transfer Between Conveyors (AREA)
- Control Of Conveyors (AREA)
- Rollers For Roller Conveyors For Transfer (AREA)
Abstract
A roller-conveying system includes a sorter for sorting the articles from one passage to others as desired, the sorter including a plurality of cells arranged on substantially the same level as the conveying surfaces of the passages; and at least some of the cells including a motorized roller rotatably carried in a shell, and a shifter for changing the direction of the motorized roller; wherein the shifter includes a revolving shaft vertical to the conveying surface, the revolving shaft connected to the motorized roller, so as to revolve the motorized roller so as to cause it to direct toward a desired conveying passage.
Description
- The present invention relates generally to a roller-conveying system, and more particularly, to a roller-conveying system provided with a sorter which sorts the conveying articles in desired directions.
- Japanese Patent Laid-open Specification No. 2006-44818 discloses a typical example of conventional conveying system. This system uses a lifter which lifts the conveying articles to transfer them in desired directions.
- The lifting system is disadvantageous in lifting each article. The lifting consumes time, thereby decreasing the working efficiency. Additionally, the lifting system lacks positional flexibility. Furthermore, the lifting system requires a large space on and around the main conveyor. As a result, the conveying system becomes large as a whole.
- Accordingly, the present invention is directed to a reduced size of the conveying system by providing a sorter capable of sorting on the same level as the main conveyor, thereby shifting the articles horizontally in desired directions.
- In this specification “rotate (rotation)” and “revolve (revolution)” will be differently used for convenience only and are not limiting. “Rotate” means that a roller turns on its own axis, and “revolve means that a roller turns in a horizontal plane about a vertical axis passing through the body of the roller. Under this terminology a roller rotates when it conveys articles, and it revolves when it changes its position in relation to a direction in which the articles are to be conveyed. This is also for explanation's convenience only.
- A first form of roller-conveying system for achieving the above-mentioned object includes a sorter which has a plurality of cells arranged on substantially the same level as the conveying surfaces of the passages; and at least some of the cells including a motorized roller rotatably carried in a shell, and a shifter or directional changer (hereinafter “shifter”) of the motorized roller; wherein the shifter includes a revolving shaft vertical to the conveying surface, the revolving shaft connected to the motorized roller, so as to revolve the motorized roller to agree to a desired conveying passage.
- According to the first form of roller-conveying system, the articles are conveyed in desired directions in a plane with no ascent or descent, thereby increasing the conveying efficiency.
- Furthermore, the amount of revolution of the motorized roller can be readily adjusted, thereby easing the change of the conveying directions of articles.
- Herein, the amount of revolutions of the motorized roller includes the amount of angles at which the motorized roller horizontally revolves about an axis vertical to the conveying surface and the amount of angular displacement over which the motorized roller revolves.
- The motorized roller is externally protected by the shell, thereby securing the compact structure as a whole.
- In order to properly operate the roller-conveying system of the present invention in any form, it is essential to achieve the exact adjustment of the revolution of the motorized rollers.
- Therefore, a second form of roller-conveying system according to the present invention, the shifter of the sorter includes an auxiliary motor for causing the motorized roller to revolve about the vertical shaft; and means for adjusting the number of revolution of the motorized roller in response to pulses generated from the operation of the auxiliary motor.
- According to the second form of roller-conveying system, the motorized rollers can be exactly adjusted to the desired direction in which the articles are conveyed.
- In order to facilitate the location of the motorized rollers in relation to the desired direction in which the articles are conveyed, the sorter of the invention is provided with cells in which the motorized rollers are independently operated, thereby enabling the individual motorized rollers to maneuver in relation to the conveying direction of articles.
- Accordingly, a third form of roller-conveying system, the sorter includes a plurality of cells which are able to revolve about their own axis independently of the others.
- As a result, the motorized rollers can revolve independently of others so as to take an appropriate position, thereby shifting the articles in various desired directions.
- It often happens that the
sorter 50 receives a reaction from the articles being carried on the cells. The sorter of the invention is made robust against such detrimental reaction from the conveyer, thereby maintaining the motorized rollers in the stay state against a reaction in the form of rotatable urge. - Therefore, a fourth form of roller-conveying system, the sorter includes means for stopping the motorized roller from revolving about the vertical axis.
- According to the fourth form, the motorized rollers are prevented from revolving unexpectedly by the conveying articles, thereby ensuring that the articles are exactly conveyed in a desired direction.
- The sorter is designed to be capable of maneuvering the motorized rollers in relation to directions in which the articles are to be conveyed by allowing the motorized rollers to revolve about a vertical axis passing through the body thereof, wherein they can revolve clockwise or anticlockwise, depending upon the situation.
- Therefore, a fifth form of roller-conveying system, means for stopping the motorized roller from revolving in either direction.
- As a result, the motorized rollers are located exactly in correspondence to a direction in which the articles are to be conveyed.
- A sixth form of roller-conveying system, a selected number of motorized rollers revolve clockwise and anticlockwise as required, and the stop means stops the selected number of motorized roller from revolving either clockwise or anticlockwise, wherein the amount of revolution in one direction corresponds to that of revolution in the other direction.
- As a result, the articles can be conveyed exactly in a desired direction, thereby shortening the time required for conveying articles.
- A seventh form of roller-conveying system, the sorter is provided with means for associating the revolution of the motorized roller in one cell with that in other cell,
- According to the seventh form of roller-conveying system, the positional change of one motorized roller causes other motorized roller or rollers to change their positions simultaneously, thereby resulting in efficient article conveyance.
- An eighth form of roller-conveying system, the sorter is located at the junction of a first passage and a second passage.
- As a result, the articles on one passage can be readily shifted to another passage in the same plane; that is, with no ascent or descent.
- In short, the present invention provides a roller-conveying system which can swiftly and securely sort the articles from one passage to another passage as desired.
-
FIG. 1 is a plan view showing a roller-conveying system according to the present invention; -
FIG. 2 is a cross-sectional view showing the internal structure of a motorized roller; -
FIG. 3 is a perspective view showing a cell to be arranged in the sorter; -
FIG. 4A is a plan view showing the sorter shown inFIG. 1 ; -
FIG. 4B is a cross-sectional view taken along A-A line inFIG. 4A ; -
FIG. 4C is a cross-sectional view taken along B-B line inFIG. 4A ; -
FIG. 5A is a plan view showing the cell ofFIG. 3 ; -
FIG. 5B is a cross-sectional view taken along A-A line inFIG. 5A ; -
FIG. 5C is a cross-sectional view taken along B-B line inFIG. 5A ; -
FIG. 5D is a cross-sectional view taken along C-C line inFIG. 5A ; -
FIG. 6 is a perspective exploded view of the cell ofFIG. 3 ; -
FIGS. 7A and 7B are plan views schematically illustrating the behavior of the roller-conveying system of the invention when it is in “normal straight conveyance”; -
FIGS. 8A and 8C are plan views schematically illustrating the behavior of the roller-conveying system of the invention when it is in “first sorted conveyance”; -
FIGS. 8B and 8D are plan views schematically illustrating the relationship between the passage of conveyance and the position of a motorized roller in the cell; -
FIGS. 9A to 9C are plan views schematically illustrating the behavior of the roller-conveying system of the invention when it is in “second sorted conveyance”, wherein Fig. C is an enlarged view especially illustrating an anticipated movement of the article from one course to another -
FIG. 1 shows aroller conveyer 1 having amain passage 2 and asub-passage 3, and asorter 50 located at the junction of themain passage 2 and thesub-passage 3. - The
main passage 2 and thesub-passages 3 are constructed of two kinds of rollers; that is, free-rollers 8 andmotorized rollers 10 crosswise arranged inframes 6. - The
main passage 2 conveys articles, such as cartons, straightforward. Themain passage 2 has twobranch passages 2 a at the left (upstream) and 2 b at the right (downstream) of thesorter 50. Thesub-passages 3 extend in different directions from thesorter 50. - The
sorter 50 is designed to take over the articles from themain passage 2, and sort them in a desired direction. In the illustrated example ofFIG. 1 the sub-passage 3 a extends at right angle to thesorter 50, and the sub-passage 3 b is arranged at a declined angle to thesorter 50. - As referred to above, each
passage rollers 8 rotatable on the respective pins (unnumbered) supported in a known manner on theframes 6. The free-rollers 8 and themotorized rollers 10 are crosswise arranged on the respective passages. - The
motorized roller 10 and thefree rollers 8 take the same appearance but themotorized roller 10 is provided with amotor 20 and areduction gear 21. More specifically, as shown inFIG. 2 themotorized roller 10 includes acylindrical shell 11 of metal,stoppers shell 11, and pins 13 and 14 which are rotatably carried in thestoppers bearings - The
pin 14 has abore 18 through which acable 23 is passed, so as to supply electric power and various control signals to themotor 20. Thecable 23 extends beyond theshell 11. - The
motorized roller 10 houses adriver unit 25 which is constituted with themotor 20 and thespeed reduction gear 21. Themotor 20 is a brushless motor provided with an electromagnetic stator, a rotor having magnetic poles, and a position detector. Thecentral spindle 26 of themotor 20 is connected to thespeed reduction gear 21 through abearing 27. - In
FIG. 2 , which shows the internal structure of themotorized roller speed reduction gear 21 includes a planet gear train whereby the rotating speed of themotor 20 is reduced through thespindle 26 at a desired reduction ratio. Theoutput pin 28 of thereduction gear 21 is connected to a connectingmember 30 secured to theshell 11 through anouter gear 29. The reduced speed of themotor 20 is transmitted to theshell 11 through theoutput pin 28 and the connectingmember 30, thereby causing the roller 10 (i.e. the shell 11) to rotate. - Each of the
main passage 2 and thesub-passage 3 is composed essentially of at least onemotorized roller 10 and a plurality ofrollers 8. Adjacent pairs ofrollers rollers belts 32. Owing to this arrangement, once themotorized rollers 10 are driven, all therollers belts 32. In this way the articles placed on thepassages 2 are conveyed in accordance with the rotation of therollers sorter 50, they are sorted in a desired direction by thesorter 50, which will be described in detail below: - As shown in
FIGS. 1 , 3 and 4(A) thesorter 50 takes a square shape when viewed from top (FIG. 1 ), and provided with a plurality ofcells 60; the illustrated example has 25 (5×5) pieces - As best shown in
FIG. 6 , each of thecells 60 includes acell driver unit 65 which houses aroller section 70 covered by acover 85, and amotorized roller 80 having ashell 11 carried on a pair offirst supporters 83 by thepins roller section 70 is supported by a disc-shaped intermediate base 81 made of a plate 82 having arectangular opening 87 in the center. Themotorized roller 80 has the same structure as themotorized roller 10 but is shorter so as to be housed within the area of the intermediate base 81. Thecover 85 having a pair ofsuspenders 86 is supported by a pair ofsecond supporters 84 upright on the intermediate base 81. When thecover 85 is placed on theroller section 70, the semi-circular top surface of theroller 80 partly protrudes through therectangular opening 87, and form an imaginary sliding surface X (FIG. 3 ) supporting the articles. - Again, referring to
FIG. 6 , thecell driver unit 65 is additionally provided with aninternal gear 71, anexternal gear 73, and an auxiliaryelectric motor 75. - As shown in
FIG. 6 , the pair offirst supporters 83 are upright and diametrically situated at points near the peripheral edge of theintermediate base 80, each holding thepin motorized roller 80. - The
second supporters 84 are provided at right angular intervals to thefirst supporters 83 along the periphery of the intermediate base 81. Thesecond supporters 84 support a coveringunit 72 from underneath. - The opening 81 a of the intermediate base 81 is co-axial with a
hollow cylinder 88 extending below the intermediate base 81. Thehollow cylinder 88 houses acable 23 connected to themotorized roller 80 and is rotatably fitted in abearing 90. - The
internal gear 71 is secured to the bottom of the intermediate base 81, and constitutes ashifter 78 together with theexternal gear 73 and theauxiliary motor 75 for driving theexternal gear 73. Theshifter 73 changes the direction of theroller 80. - The outside diameter of the
internal gear 71 is substantially the same as that of the intermediate base 81. Theinternal gear 71 rests onrollers 91 provided along the periphery of abed 61, and revolves thereon horizontally in relation to thebed 61. - As shown in
FIG. 6 , the coveringunit 72 includes thecover 85 and thesuspenders 86. Thecover 85 has substantially the same outside diameter as that of the intermediate base 81 and theinternal gear 71. Theopening 87 is so sized that the semi-circular top surface of theroller 80 protrudes through it. When all the rollers of thecells 60 extrude through therespective openings 87, the extruding surfaces form the imaginary sliding surface X of thesorter 50. - The
suspenders 86 project downward from thecover 85, and stay side by side with the outside of thefirst supporters 83, thereby unifying thecover 85 and the intermediate base 81 into the coveringunit 72, with theroller 80 protruding its semi-circular top surface through theopening 87. - The
external gear 73 is connected to the revolving axis of theauxiliary motor 75, wherein the revolving axis projects on the top surface of thebed 61. Theexternal gear 73 is located within and in gear with theinternal gear 71. When theauxiliary motor 75 is driven, theexternal gear 73 revolves, and theroller section 70 revolves in association with theexternal gear 73. In this way thecell 60 revolves round the axis V clockwise or anticlockwise, depending upon the situation. - The
top surface 61 a of thebed 61 has abore 61 b at the center. As referred to above, therollers 91 are situated at 45° angular displacements along the periphery of thebed 61. Thebore 61 b is surrounded with abearing 90 aligned with thebore 61 b. Thecylinder 88 is inserted in and through thebore 61 b; that is, through thebearing 90, thereby allowing thecylinder 88 to revolve about the axis V. Therollers 91 support theexternal gear 73 and help them rolling. - Each of the
cells 60 is provided with acontroller 95 as shown inFIGS. 4A and 4B . Thecontroller 95 will be more particularly described: - The
controller 95 plays an important role by regulating theauxiliary motor 75 of themotorized roller 80. In addition, thecontroller 95 determines the number of revolutions of theroller 80 about the V axis. The regulation of theauxiliary motor 75 leads to the regulation of the revolution of theexternal gear 73, theinternal gear 71, and the base 81. In this way the amount of revolutions of eachroller 80 is regulated, thereby changing the directions of conveying the articles. - In addition, the
controller 95 can prevent theroller 80 from revolution, this situation being referred to as “in the stay state”. More specifically, when themotor 80 is in the stay state, thecontroller 95 monitors the pulses from theauxiliary motor 75 whereby it detects both the amount of revolutions and the revolting direction of theauxiliary motor 75. Then thefree roller 8 is reversely rotated in correspondence with the detected amount of revolutions. In this way, thecontroller 95 determines the revolution of theroller 80 either clockwise or anticlockwise. Thus, even if thesorter 50 receives a reaction from the articles being carried on thecell 60, theroller 80 can be maintained in the stay state against the rotatable urge. - Now, referring to
FIGS. 1 , 7 to 9, the conveyingsystem 1 can transfer articles in at least three different modes; one being “normal straight conveyance” where the articles are straightly conveyed from thepassage 2 a to thepassage 2 b with the front W1 of each article ahead, another mode being “first sorted conveyance” where each of the articles is sorted onto thepassage 3 a (upward inFIG. 1 ) or thepassage 3 b (downward inFIG. 1 ) with their front W1 kept unchanged as shown inFIGS. 7A and 7B , and a further mode being “deviated conveyance” where the article is conveyed from thepassage 2 a to thepassage 2 b along a deviated course as shown inFIG. 9 wherein the front W1 kept unchanged. This mode will be “second sorted conveyance”. In short, at least three conveyance modes are possible: that is, “normal straight conveyance”, “first sorted conveyance” and “second sorted conveyance”. Each of these modes will be more specifically described: - In this mode, when the
motorized rollers 10 are switched on and started, therollers 8 follow to rotate. Thus, the conveyance of articles on thepassage 2 a starts. - The
sorter 50 get ready for receiving the articles by arranging theshell 11 of theroller 80 in eachcell 60 in parallel with themotorized rollers 10 andfree rollers 8 as shown inFIG. 1 . - If the
motorized rollers 80 of thesorter 50 are not in parallel with, but stay at right angle to themotorized rollers 10 and thefree rollers 8 of thepassage controller 95 of eachcell 60 drives theauxiliary motor 75, thereby rotating theexternal gear 73 secured to the shaft of theauxiliary motor 75. The rotation of theexternal gear 73 causes theinternal gear 71, the associatedroller section 70 and themotorized rollers 80 to revolve about the axis V until themotorized rollers 80 are brought into parallel with themotorized rollers 10 and thefree rollers 8 on themain passages controllers 95 stop theauxiliary motor 75. - After all the
rollers passage 2 a are conveyed up to a point near thesorter 50. At this moment thecontrollers 95 rotates themotorized rollers 80 in eachcell 60. In this way the articles on thepassage 2 a continue to be straightly conveyed onto thepassage 2 b. - As shown in
FIG. 7 each article is rectangular with a front W1, and opposite sides W2 and W3, wherein the front W1 is ahead and the sides W2 and W3 are left and right in relation to the advancing direction of the articles. InFIG. 7A the articles are conveyed from thepassage 2 a either to thepassage 3 a or to thepassage 3 b sideway with the side W2 of each article ahead. InFIG. 7B the articles are conveyed onto thepassage 3 b with the sides W3 ahead. - More specifically, when the articles are placed on the
passage 2 a, themotorized rollers 10 are driven to convey the articles along the normal course from upstream to downstream. - The
sorter 50, before taking over the articles from thepassage 2 a, causes therollers 80 of thecells 60 to take appropriate positions so as to sort the articles onto thepassage FIG. 7A when the articles are to be sorted onto thepassage 3 a as indicated by the arrow A, the shells 11 (actually, the rollers 80) are brought into parallel with therollers passage 3 a. - In
FIG. 7B , therollers 80 are likewise brought into parallel with therollers passage 3 b. In either case, thecontrollers 95 in therespective cells 60 function to shift the positions of therollers 80 as described above. - In this way each article on the
passage 2 a is sorted to thepassage 3 a as desired, with its left-hand side W2 ahead. When they are sorted to thepassage 3 b, they are conveyed on thepassage 3 b with their right-hand side W3 ahead. - The feature of this conveyance resides in the fact that as shown in
FIGS. 8A and 8B the articles are shifted by thesorter 50 onto thepassage passage passage 2 a. - More specifically, when the articles are placed on the
passage 2 a, themotorized rollers 10 are driven, and thefree rollers 80 follow to rotate, thereby causing the articles to move toward thesorter 50. - The
sorter 50 is made ready to take over the articles from thepassage 2, and therollers 80 in thecells 60 are also made ready to mount them by revolving about the axis V and shifting their position as indicated by the arrow A inFIG. 8B . As a result, the articles are conveyed with their heads W1 maintained ahead. -
FIG. 8C shows that the articles are sorted onto thepassage 3 b in the same manner, where therollers 80 are shifted in the hatched area (P) inFIG. 8C . - In this way the articles on the
passage 2 a are conveyed into the desired directions with the aid of thecontrollers 95 which manipulate themotorized rollers 80 in thecell 60. - Briefly, this mode is characteristic in that when the articles are conveyed onto the
passage 2 b they are deviated by thesorter 50 from the original course on thepassage 2 a as indicated by the arrows A and B inFIGS. 9A and 9B . The articles maintain their original positions on thepassage 2 a but are deviated sideway and then advance on thepassages 2 b without changing their heads ahead. - For explanation' purpose in
FIG. 9C , thesorter 50 is divided into an upstream (U) area, a middle (M) area and a downstream (D) area wherein the U area includes U1 and U2 sections, and the D area includes D1 and D2 sections. InFIG. 9A the article is shifted from the U1 area to the D1 as indicated by the arrow A. Likewise, inFIG. 9B the article is shifted from U2 to D2. In either case, themotorized rollers 80 of thecells 60 located in the M area cause the articles to change their positions as mentioned above. - By selecting a desired mode from the three modes of conveyance, the articles can be conveyed straight from the
passage 2 a to thepassage 2 b, and from thepassage 2 a to thepassage 3 a or thepassage 3 b as desired. - As referred to above, the
sorter 50 is provided with the plurality ofcells 60 horizontally arranged in a plane (whose number is optional; in the illustrated example, 50 pieces). Theroller section 70, themotorized roller 80 and theshifter 78 are all incorporated in thesingle cell 60. Themotorized rollers 80 can take their positions in correspondence to the direction in which the articles are conveyed. The positional change takes place in a plane with no ascent or descent, in contrast to the known conveying system using a lifter. - The positional change of the
motorized roller 80 is performed by adjusting the amount of rotation of theauxiliary motor 75. Alternatively, it is also possible that some of thecells 60 are provided with rollers having no driver like thefree rollers 8 of thepassages - More specifically, the amounts of rotation of the
auxiliary motor 75 and of themotorized roller 80 are counted in terms of the number of pulses generated from the operation of theauxiliary motor 75. However, the present invention is not limited to this specific structure, but any structure can be used if it can count the amount of rotation of theauxiliary motor 75 and the number of themotorized roller 80. - The
sorter 50 of the present invention incorporates themotorized rollers 80 as a driver, thereby achieving the reduced size. - The
auxiliary motor 75 performs the key function; that is, theauxiliary motor 75 causes therollers 80 to revolve clockwise or anticlockwise about the axis V, thereby enabling themotorized rollers 80 to take appropriate positions in relation to the free-rollers 8 and themotorized rollers 10 of thepassages - As an alternative example, it is also possible that the
motorized rollers 80 of some or all thecells 60 can be unilaterally rotatable; that is, in either direction. As a further alternative example, themotorized roller 80 need not revolve at 3600 but can be less than it. - In the circumstances where the
motorized roller 80 is required to stop, if thecontroller 95 detects a pulse signal from theauxiliary motor 75, which is supplied with the amount of electric power so as to reverse theroller 80 in correspondence to the number of revolutions of themotorized roller 80 so far performed. - Instead of the arrangement described above, a mechanical device such as a brake can be used to stop the
motorized roller 80 from revolution. The mechanical device will simplify the procedure of control. - In contrast to the arrangement described above where all the motorized rollers independently revolve, the suggested alternative embodiment has a structure in which all or some of the
motorized rollers 80 revolve about the axis V together. More specifically, inFIG. 9 cells 60 situated side by side can be operated together with the use of small component parts such as gears and rollers. This increases the operational efficiency. - Since the
sorter 50 is located at the junction of thepassages - It is also possible to place the
sorter 50 at a desired position such as at an end, in the middle, or any other place of the conveyor. The number of thesorter 50 is not limited to a single but a plurality of it can be provided at intervals. - In the embodiment described above the
motorized rollers 80 continue to rotate but it is possible to modify so that therollers 80 start to rotate only in response to the articles approaching, thereby saving electricity. While thecells 60 are at rest, themotorized rollers 80 can be prepared for the subsequent conveyance. - In the embodiment described above a
single sorter 50 is provided crosswise of the passage but a plurality of sorters can be provided crosswise of the passage. - As a further alternative embodiment the motorized rollers can be selectively driven in correspondence to the articles approaching, and the others are at rest, thereby avoiding wasting energy.
- As another alternative embodiment a sorter can be provided at the junction of a plurality of passages, and jointly collect the articles from the plurality of passages, and then convey them together onto a particular passage.
- In the “First sorted conveyance” where the articles are turned at right angle or other as shown in
FIG. 8 , the outer motorized roller and the inner motorized roller are normally rotated by the same number of rotations and at the same torque, but alternatively, they can be rotated by a different number of rotations and at a different torque. - As a modified version of the cell a plurality of motorized rollers can be installed in a single cell with the addition of free-rollers or none.
- As a further modified version of the sorter, containers such boxes can be prepared for collecting the articles instead of the
passages FIG. 1 , or otherwise, a collecting site can be provided for a subsequent transportation. - In the embodiment described above each cell is provided with the
controller 95 but alternatively, some of the cells can share asingle controller 95, and/or means can be provided for being shared by the plurality of motorized rollers to detect information useful for controlling themotorized rollers 80 andauxiliary motors 75.
Claims (9)
1. A sorter for sorting the articles from one passage to others, comprising:
a plurality of cells arranged on substantially the same level as the conveying surfaces of the passages; and
at least some of the cells each comprising a motorized roller rotatably carried in a shell, and a shifter of the motorized roller a shifter of the motorized roller for allowing the motorized roller to direct toward a particular passage;
wherein the shifter comprises a revolving shaft vertical to the conveying surface, the revolving shaft connected to the motorized roller, so as to revolve the motorized roller to cause it to direct toward a particular passage.
2. A sorter as defined in claim 1 , wherein the shifter comprises an auxiliary motor for revolving the motorized roller about a revolving axis; and means for adjusting the number of revolutions of the motorized roller in response to pulses generated from the rotation of the auxiliary motor.
3. A sorter as defined in claim 1 , wherein each of the cells revolves about its own axis independently of the others.
4. A sorter as defined in claim 2 , wherein each of the cells is able to revolve about its own axis independently of the others.
5. A sorter as defined in claim 1 , further comprising means for stopping the motorized roller from revolving about the revolving axis.
6. A sorter as defined in claim 5 , wherein the motorized rollers revolve clockwise and anticlockwise as required, and the stop means stops the motorized roller from revolving both clockwise and anticlockwise.
7. A sorter as defined in claim 5 , wherein the stop means permits the motorized roller to revolve reversely in correspondence to the number of revolutions so far performed.
8. A sorter as defined in claim 1 , further comprising means for jointly revolving the motorized rollers in each of the selected number of cells about the revolving axis
9. A roller-conveying system for conveying articles from one passage to others, comprising:
a first passage for conveying articles; and
a sorter for receiving the articles from the first passage and conveying them to a second passage horizontally in a plane,
wherein the sorter comprises a plurality of cells arranged on substantially the same level as the conveying surfaces of the passages; and at least some of the cells each comprising a motorized roller rotatably carried in a shell, and a shifter of the motorized roller; and
wherein the shifter comprises a revolving shaft vertical to the conveying surface, the revolving shaft connected to the motorized roller, so as to revolve the motorized roller until it is directed toward a desired passage.
Applications Claiming Priority (2)
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JP2007006909A JP2008174318A (en) | 2007-01-16 | 2007-01-16 | Conveying module and conveying device |
JP6909/2007 | 2007-01-16 |
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US20080169171A1 true US20080169171A1 (en) | 2008-07-17 |
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US12/008,932 Abandoned US20080169171A1 (en) | 2007-01-16 | 2008-01-15 | Sorter and roller-conveying system incorporating the sorter |
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US (1) | US20080169171A1 (en) |
EP (1) | EP1947035A1 (en) |
JP (1) | JP2008174318A (en) |
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JP2008174318A (en) | 2008-07-31 |
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